[Natural history of adult-onset eIF2B-related disorders: a multicentric survey of 24 cases]. / Histoire naturelle des leucodystrophies avec mutation EIF2B: étude rétrospective multicentrique de 24 cas adultes.

INTRODUCTION: The childhood ataxia with central nervous system hypomyelination-vanishing white matter syndrome (CACH-VWM) was first characterized in children (2-5 years) on clinical and MRI criteria: cerebellospastic signs associated with episodes of rapid deterioration following stress and extensive cavitatingleucoencephalopathy. Causative mutations were found in the five genes encoding the subunits of the eukaryotic initiation factor 2B (eIF2B), involved in protein synthesis and its regulation under cellular stresses. A broad clinical spectrum has been subsequently described from congenital to adult-onset forms leading to the concept of eIF2B-related disorders. Our aim was to describe clinical and brain magnetic resonance imaging characteristics, genetic findings and natural history of patients with adult-onset eIF2B-related disorders. METHODS: The inclusion criteria were based on the presence of EIF2B mutations and a disease onset after the age of 16 years. One patient with an asymptomatic diagnosis was also included. Clinical and MRI findings were retrospectively recorded in all patients. This multicentric study included 24 patients from 22 families. RESULTS: A sex-ratio imbalance was noted (male/female=5/19). The mean age of onset was 30 years (range 12-62). Initial symptoms were neurologic (n=20), psychiatric (n=3) and ovarian failure (n=6). During follow-up (mean: 11 years, range 2-35 years), two patients died. Of the 22 survivors, 67% showed a decline in their cognitive functions and mean EDSS was 5.6 (range=0-9.5). One case remained asymptomatic. Stress worsened clinical symptoms in 33% of the patients. Magnetic resonance imaging findings consisted of cerebral atrophy (92%), extensive cystic leucoencephalopathy (83%), corpus callosum involvement (92%) and cerebellar (37%) T2-weighted hyperintensities. Most patients (83%) showed mutations in the EIF2B5 gene. The recurrent p.Arg113His-eIF2Be mutation was found at a homozygous state in 58% of the 24 eIF2B-mutated patients. CONCLUSION: eIF2B-related disorder is probably underestimated as an adult-onset inherited leucoencephalopathy. Cerebral atrophy is constant, whereas the typical vanishing of the white matter can be absent. Functional and cognitive prognosis remains severe. Molecular diagnosis is facilitated for these forms by screening for the recurrent p.Arg113His-eIF2Be mutation.

Sensitivity and specificity of decreased CSF asialotransferrin for eIF2B-related disorder.

OBJECTIVE: This is a study estimating diagnostic accuracy of CSF asialotransferrin to transferrin ratio measurement in eIF2B related disorders by using clinical evaluation and EIF2B mutation analysis as the reference standard. eIF2B-related disorder is a relatively common leukodystrophy with broad phenotypic variation that is caused by mutations in any of the five EIF2B genes. There is a need for a simple and clinically valid screening tool for physicians evaluating patients with an unclassified leukodystrophy. METHODS: CSF two-dimensional gel (2DG) electrophoresis analyses to measure asialotransferrin to transferrin ratios were performed in 60 subjects including 6 patients with documented EIF2B gene mutations, patients with other types of leukodystrophy, and patients with no leukodystrophy. RESULTS: All six patients with mutation proven eIF2B-related disease showed low to nearly undetectable amounts of asialotransferrin in their CSF when compared to 54 unaffected controls by CSF 2DG analyses in this study. eIF2B-like patients, with clinically similar presentations but no mutations in EIF2B1-5, were distinguished from patients with mutations in EIF2B1-5 by this biomarker. Patients with mutations in EIF2B1-5 had asialotransferrin/transferrin ratio levels significantly different from the group as a whole (p < 0.001). Using 8% asialotransferrin/transferrin ratio as a cutoff, this biomarker has a 100% sensitivity (95% CI = 52-100%) and 94% specificity (95% CI = 84-99%). CONCLUSION: Decreased asialotransferrin/transferrin ratio in the CSF of patients with eIF2B-related disorder is highly sensitive and specific. This rapid (<48 hours) and inexpensive diagnostic tool for eIF2B-related disorders has the potential to identify patients with likely eIF2B-related disorder for mutation analysis.

Exon deletion in the non-catalytic domain of eIF2Bepsilon due to a splice site mutation leads to infantile forms of CACH/VWM with severe decrease of eIF2B GEF activity.

The CACH/VWM syndrome is an autosomal recessive leukodystrophy characterized by a broad spectrum of clinical presentations and by diffuse cavitary degeneration of the white matter on MRI. Mutations responsible for this disorder are missense or frameshift mutations occurring in the five genes (EIF2B1-5) that encode the translation eukaryotic initiation factor eIF2B. We found that a patient with infantile CACH/VWM carries a mutation in the acceptor splice site of EIF2B5 exon 6. In lymphoblastoid cells of the patient, we detected an abnormal EIF2B5 transcript in which exon 6 was absent, however, the predicted protein product lacking part of the non-catalytic domain encoded by exon 6 was not detected. The eIF2B GEF activity was severely decreased. These data support the importance of the non-catalytic domain of the eIF2Bepsilon subunit in the eIF2B complex formation and activity.